/**************************************************************************/
/*                                                                        */
/*                                OCaml                                   */
/*                                                                        */
/*             Xavier Leroy, projet Cristal, INRIA Rocquencourt           */
/*                                                                        */
/*   Copyright 1996 Institut National de Recherche en Informatique et     */
/*     en Automatique.                                                    */
/*                                                                        */
/*   All rights reserved.  This file is distributed under the terms of    */
/*   the GNU Lesser General Public License version 2.1, with the          */
/*   special exception on linking described in the file LICENSE.          */
/*                                                                        */
/**************************************************************************/

#include <stdio.h>
#include <math.h>
#include <time.h>
#include <stdlib.h>
#include <string.h>

#include <caml/config.h>

void caml_call_poll(void)
{
}

void caml_ml_array_bound_error(void)
{
  fprintf(stderr, "Fatal error: out-of-bound access in array or string\n");
  exit(2);
}

intnat R[200];
double D[40];
intnat X, Y;
double F, G;
volatile double H;

#define INTTEST(arg,res) \
  { intnat result = (res); \
    if (arg != result) \
      printf("Failed test \"%s == %s\" for X=%" CAML_PRIdNAT " and " \
             "Y=%" CAML_PRIdNAT ": result %" CAML_PRIdNAT ", "       \
             "expected %" CAML_PRIdNAT "\n",                         \
             #arg, #res, X, Y, arg, result); \
  }
#define INTFLOATTEST(arg,res) \
  { intnat result = (res); \
    if (arg != result) \
      printf("Failed test \"%s == %s\" for F=%.15g and G=%.15g: "\
             "result %" CAML_PRIdNAT ", expected %" CAML_PRIdNAT "\n", \
             #arg, #res, F, G, arg, result); \
  }
#define FLOATTEST(arg,res) \
  { double result; \
    H = (res); \
    result = H; \
    if (arg < result || arg > result) \
      printf("Failed test \"%s == %s\" for F=%.15g and G=%.15g: "\
             "result %.15g, expected %.15g\n",                   \
             #arg, #res, F, G, arg, result); \
  }
#define FLOATINTTEST(arg,res) \
  { double result = (res); \
    if (arg < result || arg > result) \
      printf("Failed test \"%s == %s\" for X=%" CAML_PRIdNAT " and " \
             "Y=%" CAML_PRIdNAT ": result %.15g, expected %.15g\n",  \
             #arg, #res, X, Y, arg, result); \
  }

extern void call_gen_code(void (*)(void));
extern void testarith(void);
static intnat mulhs(intnat x, intnat y);

void do_test(void)
{
      call_gen_code(testarith);

      INTTEST(R[0], 0);
      INTTEST(R[1], 1);
      INTTEST(R[2], -1);
      INTTEST(R[3], 256);
      INTTEST(R[4], 65536);
      INTTEST(R[5], 16777216);
      INTTEST(R[6], -256);
      INTTEST(R[7], -65536);
      INTTEST(R[8], -16777216);

      INTTEST(R[9], (X + Y));
      INTTEST(R[10], (X + 1));
      INTTEST(R[11], (X + -1));

      INTTEST(R[12], ((intnat) ((char *)R + 8)));
      INTTEST(R[13], ((intnat) ((char *)R + Y)));

      INTTEST(R[14], (X - Y));
      INTTEST(R[15], (X - 1));
      INTTEST(R[16], (X - -1));

      INTTEST(R[17], ((intnat) ((uintnat)R - 8)));
      INTTEST(R[18], ((intnat) ((char *)R - Y)));

      INTTEST(R[19], (X * 2));
      INTTEST(R[20], (2 * X));
      INTTEST(R[21], (X * 16));
      INTTEST(R[22], (16 * X));
      INTTEST(R[23], (X * 12345));
      INTTEST(R[24], (12345 * X));
      INTTEST(R[25], (X * Y));

      INTTEST(R[26], (X / 2));
      INTTEST(R[27], (X / 16));
      INTTEST(R[28], (X / 7));
      INTTEST(R[29], (Y != 0 ? X / Y : 0));

      INTTEST(R[30], (X % 2));
      INTTEST(R[31], (X % 16));
      INTTEST(R[32], (Y != 0 ? X % Y : 0));

      INTTEST(R[33], (X & Y));
      INTTEST(R[34], (X & 3));
      INTTEST(R[35], (3 & X));

      INTTEST(R[36], (X | Y));
      INTTEST(R[37], (X | 3));
      INTTEST(R[38], (3 | X));

      INTTEST(R[39], (X ^ Y));
      INTTEST(R[40], (X ^ 3));
      INTTEST(R[41], (3 ^ X));

      INTTEST(R[42], (X << Y));
      INTTEST(R[43], (X << 1));
      INTTEST(R[44], (X << 8));

      INTTEST(R[45], ((uintnat) X >> Y));
      INTTEST(R[46], ((uintnat) X >> 1));
      INTTEST(R[47], ((uintnat) X >> 8));

      INTTEST(R[48], (X >> Y));
      INTTEST(R[49], (X >> 1));
      INTTEST(R[50], (X >> 8));

      INTTEST(R[51], (X == Y));
      INTTEST(R[52], (X != Y));
      INTTEST(R[53], (X < Y));
      INTTEST(R[54], (X > Y));
      INTTEST(R[55], (X <= Y));
      INTTEST(R[56], (X >= Y));
      INTTEST(R[57], (X == 1));
      INTTEST(R[58], (X != 1));
      INTTEST(R[59], (X < 1));
      INTTEST(R[60], (X > 1));
      INTTEST(R[61], (X <= 1));
      INTTEST(R[62], (X >= 1));

      INTTEST(R[63], ((char *)X == (char *)Y));
      INTTEST(R[64], ((char *)X != (char *)Y));
      INTTEST(R[65], ((char *)X < (char *)Y));
      INTTEST(R[66], ((char *)X > (char *)Y));
      INTTEST(R[67], ((char *)X <= (char *)Y));
      INTTEST(R[68], ((char *)X >= (char *)Y));
      INTTEST(R[69], ((char *)X == (char *)1));
      INTTEST(R[70], ((char *)X != (char *)1));
      INTTEST(R[71], ((char *)X < (char *)1));
      INTTEST(R[72], ((char *)X > (char *)1));
      INTTEST(R[73], ((char *)X <= (char *)1));
      INTTEST(R[74], ((char *)X >= (char *)1));

      INTTEST(R[75], (X + (Y << 1)));
      INTTEST(R[76], (X + (Y << 2)));
      INTTEST(R[77], (X + (Y << 3)));
      INTTEST(R[78], (X - (Y << 1)));
      INTTEST(R[79], (X - (Y << 2)));
      INTTEST(R[80], (X - (Y << 3)));

      FLOATTEST(D[0], 0.0);
      FLOATTEST(D[1], 1.0);
      FLOATTEST(D[2], -1.0);
      FLOATTEST(D[3], (F + G));
      FLOATTEST(D[4], (F - G));
      FLOATTEST(D[5], (F * G));
      FLOATTEST(D[6], F / G);

      FLOATTEST(D[7], (F + (G + 1.0)));
      FLOATTEST(D[8], (F - (G + 1.0)));
      FLOATTEST(D[9], (F * (G + 1.0)));
      FLOATTEST(D[10], F / (G + 1.0));

      FLOATTEST(D[11], ((F + 1.0) + G));
      FLOATTEST(D[12], ((F + 1.0) - G));
      FLOATTEST(D[13], ((F + 1.0) * G));
      FLOATTEST(D[14], (F + 1.0) / G);

      FLOATTEST(D[15], ((F + 1.0) + (G + 1.0)));
      FLOATTEST(D[16], ((F + 1.0) - (G + 1.0)));
      FLOATTEST(D[17], ((F + 1.0) * (G + 1.0)));
      FLOATTEST(D[18], (F + 1.0) / (G + 1.0));

      INTFLOATTEST(R[81], (F == G));
      INTFLOATTEST(R[82], (F != G));
      INTFLOATTEST(R[83], (F < G));
      INTFLOATTEST(R[84], (F > G));
      INTFLOATTEST(R[85], (F <= G));
      INTFLOATTEST(R[86], (F >= G));

      FLOATINTTEST(D[19], (double) X);
      INTFLOATTEST(R[87], (intnat) F);

      INTTEST(R[88], (X >= 0) && (X < Y));
      INTTEST(R[89], (0 < Y));
      INTTEST(R[90], (5 < Y));

      INTFLOATTEST(R[91], (F == G));
      INTFLOATTEST(R[92], (F != G));
      INTFLOATTEST(R[93], (F < G));
      INTFLOATTEST(R[94], (F > G));
      INTFLOATTEST(R[95], (F <= G));
      INTFLOATTEST(R[96], (F >= G));

      INTFLOATTEST(R[97], (F + 1.0 == G + 1.0));
      INTFLOATTEST(R[98], (F + 1.0 != G + 1.0));
      INTFLOATTEST(R[99], (F + 1.0 < G + 1.0));
      INTFLOATTEST(R[100], (F + 1.0 > G + 1.0));
      INTFLOATTEST(R[101], (F + 1.0 <= G + 1.0));
      INTFLOATTEST(R[102], (F + 1.0 >= G + 1.0));

      INTFLOATTEST(R[103], (F == G + 1.0));
      INTFLOATTEST(R[104], (F != G + 1.0));
      INTFLOATTEST(R[105], (F < G + 1.0));
      INTFLOATTEST(R[106], (F > G + 1.0));
      INTFLOATTEST(R[107], (F <= G + 1.0));
      INTFLOATTEST(R[108], (F >= G + 1.0));

      INTFLOATTEST(R[109], (F + 1.0 == G));
      INTFLOATTEST(R[110], (F + 1.0 != G));
      INTFLOATTEST(R[111], (F + 1.0 < G));
      INTFLOATTEST(R[112], (F + 1.0 > G));
      INTFLOATTEST(R[113], (F + 1.0 <= G));
      INTFLOATTEST(R[114], (F + 1.0 >= G));

      FLOATINTTEST(D[20], ((double) X) + 1.0);
      INTFLOATTEST(R[115], (intnat)(F + 1.0));

      FLOATTEST(D[21], F + G);
      FLOATTEST(D[22], G + F);
      FLOATTEST(D[23], F - G);
      FLOATTEST(D[24], G - F);
      FLOATTEST(D[25], F * G);
      FLOATTEST(D[26], G * F);
      FLOATTEST(D[27], F / G);
      FLOATTEST(D[28], G / F);

      FLOATTEST(D[29], (F * 2.0) + G);
      FLOATTEST(D[30], G + (F * 2.0));
      FLOATTEST(D[31], (F * 2.0) - G);
      FLOATTEST(D[32], G - (F * 2.0));
      FLOATTEST(D[33], (F + 2.0) * G);
      FLOATTEST(D[34], G * (F + 2.0));
      FLOATTEST(D[35], (F * 2.0) / G);
      FLOATTEST(D[36], G / (F * 2.0));

      FLOATTEST(D[37], - F);
      FLOATTEST(D[38], fabs(F));

      INTTEST(R[116], mulhs(X, Y));
}

/* Multiply-high signed.  Hacker's Delight section 8.2 */

#define HALFSIZE (4 * sizeof(intnat))
#define HALFMASK (((intnat)1 << HALFSIZE) - 1)

static intnat mulhs(intnat u, intnat v)
{
  uintnat u0, v0, w0;
  intnat u1, v1, w1, w2, t;
  u0 = u & HALFMASK; u1 = u >> HALFSIZE;
  v0 = v & HALFMASK; v1 = v >> HALFSIZE;
  w0 = u0*v0;
  t = u1*v0 + (w0 >> HALFSIZE);
  w1 = t & HALFMASK;
  w2 = t >> HALFSIZE;
  w1 = u0*v1 + w1;
  return u1*v1 + w2 + (w1 >> HALFSIZE);
}

/* A simple linear congruential PRNG */

#ifdef ARCH_SIXTYFOUR
#define RAND_A 6364136223846793005ULL
#define RAND_C 1442695040888963407ULL
#else
#define RAND_A 214013U
#define RAND_C 2531011U
#endif

static intnat rnd(void)
{
  static uintnat seed = 0;
  seed = seed * RAND_A + RAND_C;
  return (intnat) seed;
}

/* Test harness */

#define NUM_RANDOM_ITERATIONS 1000000

int main(int argc, char **argv)
{
  double weird[4];

  if (argc >= 5) {
    X = atoi(argv[1]);
    Y = atoi(argv[2]);
    sscanf(argv[3], "%lf", &F);
    sscanf(argv[4], "%lf", &G);
    do_test();
    return 0;
  }
  printf("Testing -2...2\n");
  for(Y = -2; Y <= 2; Y++) {
    for (X = -2; X <= 2; X++) {
      F = X; G = Y; do_test();
    }
  }
  if (!(argc >= 2 && strcmp(argv[1], "noinf"))) {
    printf("Testing special FP values\n");
    weird[0] = 0.0;
    weird[1] = 1.0 / weird[0];         /* +infty */
    weird[2] = -1.0 / weird[0];        /* -infty */
    weird[3] = 0.0 / weird[0];         /* NaN */
    for (X = 0; X < 4; X++) {
      for (Y = 0; Y < 4; Y++) {
        F = weird[X]; G = weird[Y]; do_test();
      }
    }
  }
  printf("Testing %d random values\n", NUM_RANDOM_ITERATIONS);
  for (int i = 0; i < NUM_RANDOM_ITERATIONS; i++) {
    X = rnd();
    Y = rnd();
    F = X / 1e3;
    G = Y / 1e3;
    do_test();
  }
  return 0;
}
